Global ETD Search

1	Expression and distribution of transcription factors NPAS3 och RFX3 in Alzheimer's disease Remnestål, Julia January 2015 (has links) Alzheimers sjukdom (AD) är den vanligaste formen av demens och påverkar miljontals människor världen över. Förekomst av senil plack och tangles in hjärnan hos personer med AD har varit ett känt faktum sedan början av 1900-talet. Flera studier gjorda under de senaste åren har påvisat en kopplling mellan AD och Diabetes, då försämrad insulin-signalering och nedbrytning av glukos påverkar flera av de molekylära förändringar som uppvisas i AD. I det här projektet använde vi oss av immunofluorescence för att studera uttryck och lokalisering av två transkriptionsfaktorer involverade i nedbrytning av glukos; NPAS3 och RFX3, i hjärnbarken hos patienter med AD, Lewykroppsdemens (DLB) hälsosamma kontroller. Intensiteten på infärgningen av NPAS3 och RFX3 visade inte mängden protein och kvantifierades med algoritmer skrivna i ImageJ. Infärgningen av NPAS3 och RFX3 visade inte på någon signifikant skilland mellan de tre kohorterna och för att förstå mer om deras roll i nedbrytningen av glukos och om det kan påverka AD, måste både infärgnings- och kvantifieringsprocesserna använda i detta projekt optimeras. / Alzheimer's disease (AD) is the most common form of senile dementia. affecting millions o people worldwide. Beta amyloid plaques and neurofibrillary tangles are known to be part of AD pathology since the early nineteen hundreds. In recent years evidence showing that impairments in glucose metabolism can initiate plaque- and tangle formation, as well as several of the other degenerative mechanisms taking place in the AD brain, suggests a potential connection between Alzheimer's disease and Diabetes. Here we used immunofluorescence to study expression of two transcription factors involved in regulation of glucose metabolism; NPAS3 and RFX3. Expression of NPAS3 and RFX3 was investigated in temporal cortex from patients with AD, Dementia with Lewy bodies (DLB) and non-demented age matched controls. The intensity of the immunofluorescent stainings was assumed to be proportional to the amount of stained protein and was quantified in ImageJ. This explorative study did not reveal a significant difference between groups and staining- an quantification procedures would have to be optimized in order to get a clearer understanding about the role of NPAS3 and RFX3 in glucose metabolism, and if that could affect the progression of AD. Affinity proteomics Alzheimer's disease Engineering and Technology Teknik och teknologier
2	Bead based protein profiling in blood Neiman, Maja January 2013 (has links) This thesis is about protein profiling in blood-derived samples using suspension bead ar- rays built with protein affinity reagents, and the evaluation of binding characteristics and potential disease relation of such profiles. A central aim of the presented work was to discover and verify disease associated protein profiles in blood-derived samples such as serum or plasma. This was based on immobiliz- ing antigens or antibodies on color-coded beads for a multiplexed analysis. This concept generally allow for a dual multiplexing because hundreds of samples can be screened for hundreds of proteins in a miniaturized and parallelized fashion. At first, protein antigens were used to study humoral immune responses in cattle suffering from a mycoplasma infec- tion (Paper I). Here, the most immunogenic of the applied antigens were identified based on reactivity profiles from the infected cattle, and were combined into an antigen cocktail to serve as a diagnostic assay in a standard ELISA set-up. Next, antibodies and their em- ployment in assays with directly labeled human samples was initiated. This procedure was applied in a study of kidney disorders where screening of plasma resulted in the discovery of a biomarker candidate, fibulin-1 (Paper II). In parallel to the disease related applica- tions, systematic evaluations of the protein profiles were conducted. Protein profiles from 2,300 antibodies were classified on the bases of binding properties in relation to sample heating and stringent washing (Paper III). With a particular focus on heat dependent de- tectability, a method was developed to visualize those proteins that were captured to the beads in an immunoassay by using Western blotting (Paper IV). In conclusion, this thesis presents examples of the possibilities of comparative plasma profiling enabled by protein bead arrays. / <p>QC 20130208</p> Affinity proteomics protein array suspension bead array antigen antibody biomarker discovery serology selectivity sensitivity serum plasma
3	Antibody based plasma protein profiling Qundos, Ulrika January 2013 (has links) This thesis is about protein profiling in serum and plasma using antibody suspension bead arrays for the analysis of biobanked samples and in the context of prostate cancer biomarker discovery. The influence of sample preparation methods on antibody based protein profiles were investigated (Papers I-III) and a prostate cancer candidate biomarker identified and verified (Papers III-V). Furthermore, a perspective on the research area affinity proteomics and its’ employment in biomarker discovery, for improved understanding and potentially improved disease diagnosis, is provided. Paper I presents the results of a comparative plasma and serum protein profiling study, with a targeted biomarker discovery approach in the context of metabolic syndrome. The study yielded a higher number of significant findings and a low experimental variability in blood samples prepared as plasma. Paper II investigated the effects from post-centrifugation delays at different temperatures prior sample storage of serum and plasma samples. Minor effects were found on the detected levels of more than 300 predicted or known plasma proteins. In Paper III, the detectability of proteins in plasma was explored by exposing samples to different pre-analytical heat treatments, prior target capture. Heat induced epitope retrieval was observed for approximately half of the targeted proteins, and resulted in the discovery of different candidate markers for prostate cancer. Several antibodies towards the prostate cancer candidate biomarker CNDP1 were generated, epitope mapped and evaluated in a bead based sandwich immunoassay, as presented in Papers IV and V. Furthermore, the developed sandwich immunoassay targeting multiple distinct CNDP1 epitopes in more than 1000 samples, confirmed the association of CNDP1 levels to aggres- sive prostate cancer and more specifically to prostate cancer patients with regional lymph node metastasis (Paper V). As an outcome of the present investigations and in parallel to studies within the Biobank profiling research group, valuable lessons from study design and multiplex antibody analysis of plasma within biomarker discovery to experimental, technical and biological verifications have been collected. / <p>QC 20130821</p> protein profiling plasma antibody affinity proteomics biomark- ers multiplex assay development
4	Proximity and Affinity based Analysis of Cardiac Caveolin Protein Interactions Peper, Jonas 26 February 2020 (has links) No description available. 572 Caveolin CAV3 CAV1 Proximity Proteomics Affinity Proteomics APEX Biologie (PPN619462639)
5	Biomarker discovery for ALS by using affinity proteomica / Affinitetsproteomik för att upptäcka biomarkörer för ALS Mohsenchian, Atefeh January 2012 (has links) No description available. Biomarker discovery protein microarray affinity proteomics plasma ALS Engineering and Technology Teknik och teknologier
6	Affinity Proteomics Identifies Interaction Partners and Defines Novel Insights into the Function of the Adhesion GPCR VLGR1/ADGRV1 Knapp, Barbara, Roedig, Jens, Roedig, Heiko, Krzysko, Jacek, Horn, Nicola, Güler, Baran E., Kusuluri, Deva Krupakar, Yildirim, Adem, Boldt, Karsten, Ueffing, Marius, Liebscher, Ines, Wolfrum, Uwe 22 September 2023 (has links) The very large G-protein-coupled receptor 1 (VLGR1/ADGRV1) is the largest member of the adhesion G-protein-coupled receptor (ADGR) family. Mutations in VLGR1/ADGRV1 cause human Usher syndrome (USH), a form of hereditary deaf-blindness, and have been additionally linked to epilepsy. In the absence of tangible knowledge of the molecular function and signaling of VLGR1, the pathomechanisms underlying the development of these diseases are still unknown. Our study aimed to identify novel, previously unknown protein networks associated with VLGR1 in order to describe new functional cellular modules of this receptor. Using affinity proteomics, we have identified numerous new potential binding partners and ligands of VLGR1. Tandem affinity purification hits were functionally grouped based on their Gene Ontology terms and associated with functional cellular modules indicative of functions of VLGR1 in transcriptional regulation, splicing, cell cycle regulation, ciliogenesis, cell adhesion, neuronal development, and retinal maintenance. In addition, we validated the identified protein interactions and pathways in vitro and in situ. Our data provided new insights into possible functions of VLGR1, related to the development of USH and epilepsy, and also suggest a possible role in the development of other neuronal diseases such as Alzheimer’s disease. info:eu-repo/classification/ddc/540 ddc:540
7	Affinity assays for profiling disease-associated proteins in human plasma Byström, Sanna January 2017 (has links) Affinity-based proteomics offers opportunities for the discovery and validation of disease-associated proteins in human body fluids. This thesis describes the use of antibody-based immunoassays for multiplexed analysis of proteins in human plasma, serum and cerebrospinal fluid (CSF). This high-throughput method was applied with the objective to identify proteins associated to clinical variables. The main work in this thesis was conducted within the diseases of multiple sclerosis and malignant melanoma, as well as mammographic density, a risk factor for breast cancer. The suspension bead array (SBA) technology has been the main method for the work presented in this thesis (Paper I-IV). SBA assays and other affinity proteomic technologies were introduced for protein profiling of sample material obtained from clinical collaborators and biobanks. Perspectives on the validation of antibody selectivity by means of e.g. immuno-capture mass spectrometry are also provided. Paper I describes the development and application of a protocol for multiplexed pro- tein profiling of CSF. The analysis of 340 CSF samples from patients with multiple sclerosis and other neurological disease revealed proteins with potential association to disease progression (GAP43) and inflammation (SERPINA3). Paper II continued on this work with an extended investigation of more than 1,000 clinical samples and included both plasma and CSF collected from the same patients. Comparison of disease subtypes and controls revealed five plasma proteins of potential diagnostic relevance, such as IRF8 and GAP43. The previously reported associations for GAP43 and SERPINA3 in CSF was confirmed. Subsequent immunohistochemical analysis of post-mortem brain tissue revealed differential protein expression in disease affected areas. In Paper III, 150 serum samples from patients with cutaneous malignant melanoma were analyzed. Protein profiles from antibody bead arrays suggested three proteins (RGN, MTHFD1L, STX7) of differential abundance between patients with no disease recurrence and low tumor thickness (T-stage 1 and 2) compared to patients with high tumor thickness (T-stage 3 and 4) and disease recurrence. We observed MTHFD1L expression in tissue of a majority of patients, while expression of STX7 in melanoma tissue had been reported previously. Paper IV describes the analysis of protein in plasma in relation to mammographic breast density (MD), one of the strongest risk factors for the development of breast cancers. More than 1,300 women without prior history of breast cancer were screened. Linear associations to MD in two independent sample sets were found for 11 proteins, which are expressed in the breast and involved in tissue homeostasis, DNA repair, cancer development and/or progression in MD. In conclusion, this thesis describes the use of multiplexed antibody bead arrays for protein profiling of serum, plasma and CSF, and it shortlists disease associated proteins for further validation studies. / <p>QC 20170302</p> proteomics affinity proteomics immunoassay antibody microarray suspension bead array protein profiling immuno-capture plasma serum cerebrospinal fluid biomarker discovery multiple sclerosis malignant melanoma mammographic breast density
8	High-throughput protein analysis using mass spectrometry-based methods Boström, Tove January 2014 (has links) In the field of proteomics, proteins are analyzed and quantified in high numbers. Protein analysis is of great importance and can for example generate information regarding protein function and involvement in disease. Different strategies for protein analysis and quan- tification have emerged, suitable for different applications. The focus of this thesis lies on protein identification and quantification using different setups and method development has a central role in all included papers. The presented research can be divided into three parts. Part one describes the develop- ment of two different screening methods for His6-tagged recombinant protein fragments. In the first investigation, proteins were purified using immobilized metal ion affinity chro- matography in a 96-well plate format and in the second investigation this was downscaled to nanoliter-scale using the miniaturized sample preparation platform, integrated selective enrichment target (ISET). The aim of these investigations was to develop methods that could work as an initial screening step in high-throughput protein production projects, such as the Human Protein Atlas (HPA) project, for more efficient protein production and purification. In the second part of the thesis, focus lies on quantitative proteomics. Protein fragments were produced with incorporated heavy isotope-labeled amino acids and used as internal standards in absolute protein quantification mass spectrometry experiments. The aim of this investigation was to compare the protein levels obtained using quanti- tative mass spectrometry to mRNA levels obtained by RNA sequencing. Expression of 32 different proteins was studied in six different cell lines and a clear correlation between protein and mRNA levels was observed when analyzing genes on an individual level. The third part of the thesis involves the antibodies generated within the HPA project. In the first investigation a method for validation of antibodies using protein immunoenrichment coupled to mass spectrometry was described. In a second study, a method was developed where antibodies were used to capture tryptic peptides from a digested cell lysate with spiked in heavy isotope-labeled protein fragments, enabling quantification of 20 proteins in a multiplex format. Taken together, the presented research has expanded the pro- teomics toolbox in terms of available methods for protein analysis and quantification in a high-throughput format. / <p>QC 20141022</p> Proteomics mass spectrometry affinity proteomics immunoenrichment immunoprecipitation IMAC screening protein production protein purification ISET quantification SILAC stable isotope standard antibody validation
9	Antibody-based bead arrays for high-throughput protein profiling in human plasma and serum Drobin, Kimi January 2018 (has links) Affinity-based proteomics utilizes affinity binders to detect target proteins in a large-scale manner. This thesis describes a high-throughput method, which enables the search for biomarker candidates in human plasma and serum. A highly multiplexed antibody-based suspension bead array is created by coupling antibodies generated in the Human Protein Atlas project to color-coded beads. The beads are combined for parallel analysis of up to 384 analytes in patient and control samples. This provides data to compare protein levels from the different groups. In paper I osteoporosis patients are compared to healthy individuals to find disease-linked proteins. An untargeted discovery screening was conducted using 4608 antibodies in 16 cases and 6 controls. This revealed 72 unique proteins, which appeared differentially abundant. A validation screening of 91 cases and 89 controls confirmed that the protein autocrine motility factor receptor (AMFR) is decreased in the osteoporosis patients. Paper II investigates the risk proteome of inflammatory bowel disease (IBD). Antibodies targeting 209 proteins corresponding to 163 IBD genetic risk loci were selected. To find proteins related to IBD or its subgroups, sera from 49 patients with Crohn’s disease, 51 with ulcerative colitis and 50 matched controls were analyzed. From these targeted assays, the known inflammation-related marker serum amyloid protein A (SAA) was shown to be elevated in the IBD cases. In addition, the protein laccase (multi-copper oxidoreductase) domain containing 1 (LACC1) was found to be decreased in the IBD subjects. In conclusion, assays using affinity-based bead arrays were developed and applied to screen human plasma and serum samples in two disease contexts. Untargeted and targeted screening strategies were applied to discover disease-associated proteins. Upon further validation, these potential biomarker candidates could be valuable in future disease studies. / <p>QC 20180412</p> proteomics affinity proteomics immunoassay antibody microarray suspension bead array protein profiling plasma serum biomarker discovery osteoporosis inflammatory bowel disease Crohn's disease ulcerative colitis

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